Method of implementation of peak hold in a phasing voltmeter

The invention claimed is: 1. A high voltage phasing voltmeter comprising: first and second probes, each comprising an electrode for contacting a high voltage electrical conductor, the electrode being connected in series with a resistor; and a meter comprising a housing enclosing a peak hold selector switch and an electrical circuit for measuring true rms voltage, the electrical circuit comprising an input circuit for connection to the first and second probes and developing a scaled voltage representing measured voltage across the electrodes, a converter circuit for converting the scaled voltage to a DC signal representing true rms value of the measured voltage, a peak hold circuit connected to the converter circuit to hold a peak value of the true rms value and a display connected to the peak hold circuit for displaying the measured voltage and selectively displaying the peak value of the true rms value when the peak hold selector switch is enabled. 2. The high voltage phasing voltmeter of claim 1 wherein the input circuit comprises a filter circuit. 3. The high voltage phasing voltmeter of claim 1 wherein the converter circuit converts an ac input signal to a dc output signal. 4. The high voltage phasing voltmeter of claim 1 wherein the housing is integral with a handheld shield for one of the probes. 5. The high voltage phasing voltmeter of claim 4 further comprising a cable electrically connected between the electrical circuit and the other of the probes. 6. The high voltage phasing voltmeter of claim 1 wherein the electrical circuit comprises a battery powered circuit. 7. A high voltage phasing voltmeter comprising: first and second probes, each comprising an electrode for contacting a high voltage electrical conductor, the electrode being connected in series with a resistor; and a meter comprising a housing enclosing an electrical circuit for measuring true rms voltage, the electrical circuit comprising an input circuit for connection to the first and second probes and developing a scaled voltage representing measured voltage across the electrodes, a converter circuit for converting the scaled voltage to a DC signal representing true rms value of the measured voltage, a peak hold element connected to the converter circuit to hold a peak value of the true rms value and a display connected to the peak hold element for displaying the peak value of the true rms value, wherein a rectifier circuit has an input connected to the converter circuit and having an output connected to the peak hold element comprising a capacitor to hold the peak value of the true rms value. 8. The high voltage phasing voltmeter of claim 7 wherein the capacitor is connected by a buffer to the display. 9. The high voltage phasing voltmeter of claim 7 wherein the rectifier circuit comprises an operational amplifier connected to a transistor switch. 10. The high voltage phasing voltmeter of claim 7 wherein the capacitor has high isolation resistance. 11. A high voltage portable phasing voltmeter comprising: a first probe comprising an elongate insulated shield, an electrode extending from a distal end of the shield for contacting a high voltage electrical conductor, and a resistor in the shield connected in series with the electrode; a second probe comprising an elongate insulated shield, an electrode extending from a distal end of the shield for contacting a high voltage electrical conductor, and a resistor in the shield connected in series with the electrode; and a meter comprising a housing enclosing a peak hold selector switch and an electrical circuit for measuring true rms voltage, the electrical circuit comprising an input circuit for connection to the first and second probe resistors and developing a scaled voltage representing measured voltage across the electrodes, a converter circuit for converting the scaled voltage to a DC signal representing true rms value of the measured voltage, a peak hold circuit connected to the converter circuit to hold a peak value of the true rms value and a display connected to the peak hold circuit for displaying the measured voltage and selectively displaying the peak value of the true rms value when the peak hold selector switch is enabled. 12. The high voltage portable phasing voltmeter of claim 11 wherein the input circuit comprises a filter circuit. 13. The high voltage portable phasing voltmeter of claim 11 wherein the converter circuit converts an ac input signal to a dc output signal. 14. The high voltage portable phasing voltmeter of claim 11 wherein the housing is integral a handheld shield for one of the probes. 15. The high voltage portable phasing voltmeter of claim 14 further comprising a cable electrically connected between the electrical circuit and the other of the probes. 16. The high voltage portable phasing voltmeter of claim 11 wherein the electrical circuit comprises a battery powered circuit. 17. A high voltage portable phasing voltmeter comprising: a first probe comprising an elongate insulated shield, an electrode extending from a distal end of the shield for contacting a high voltage electrical conductor, and a resistor in the shield connected in series with the electrode; a second probe comprising an elongate insulated shield, an electrode extending from a distal end of the shield for contacting a high voltage electrical conductor, and a resistor in the shield connected in series with the electrode; and a meter comprising a housing enclosing an electrical circuit for measuring true rms voltage, the electrical circuit comprising an input circuit for connection to the first and second probe resistors and developing a scaled voltage representing measured voltage across the electrodes, a converter circuit for converting the scaled voltage to a DC signal representing true rms value of the measured voltage, a peak hold element connected to the converter circuit to hold a peak value of the true rms value and a display connected to the peak hold element for displaying the peak value of the true RMS value, wherein a rectifier circuit has an input connected to the converter circuit and having an output connected to the peak hold element comprising a capacitor to hold the peak value of the true rms value. 18. The high voltage portable phasing voltmeter of claim 17 wherein the capacitor is connected by a buffer to the display. 19. The high voltage portable phasing voltmeter of claim 17 wherein the rectifier circuit comprises an operational amplifier connected to a transistor switch. 20. The high voltage portable phasing voltmeter of claim 17 wherein the capacitor has high isolation resistance.